2012
DOI: 10.1016/j.ijsolstr.2012.04.016
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Nonlinear hardening and softening resonances in micromechanical cantilever-nanotube systems originated from nanoscale geometric nonlinearities

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Cited by 60 publications
(40 citation statements)
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“…In most previous studies, devices have been designed that demonstrate the behaviour of interest, but more recently researchers have started to explore the possibility of tailoring systems for targeted responses. For single-mode resonators, tuning the nonlinear resonances with hardening and softening behaviour is considered by Cho et al [8], where the orientation of a nano-tube connecting two cantilever structures was changed to obtain hardening or softening behaviour, and Dai et al [9], where the impact of topology variation on the hardening behaviour was investigated in dynamic tests of an energy harvesting device. For coupled-mode resonators with internal resonances, Tripathi & Bajaj [10] presented a procedure to synthesize families of structures with two commensurable natural frequencies (such as 1:2 or 1:3 relations).…”
Section: Introductionmentioning
confidence: 99%
“…In most previous studies, devices have been designed that demonstrate the behaviour of interest, but more recently researchers have started to explore the possibility of tailoring systems for targeted responses. For single-mode resonators, tuning the nonlinear resonances with hardening and softening behaviour is considered by Cho et al [8], where the orientation of a nano-tube connecting two cantilever structures was changed to obtain hardening or softening behaviour, and Dai et al [9], where the impact of topology variation on the hardening behaviour was investigated in dynamic tests of an energy harvesting device. For coupled-mode resonators with internal resonances, Tripathi & Bajaj [10] presented a procedure to synthesize families of structures with two commensurable natural frequencies (such as 1:2 or 1:3 relations).…”
Section: Introductionmentioning
confidence: 99%
“…Finally, a backside deep reactive ion etching (ICP-DRIE) was performed to release the free-standing microcantilever-polymer system. In contrast to the previous works in [31][32][33], where the nonlinear attachments (i.e., BN nanotube) were manually integrated in a one-by-one and strenuous fashion, the proposed device was manufactured by a massively parallel, scalable process, suitable for the practical MEMS applications.…”
Section: System Description and Fabricationmentioning
confidence: 99%
“…For example, authors' previous works have successfully introduced strong geometric nonlinearity by coupling a nanoscale structure such as a boron nitride (BN) nanotube [31,33] or a silicon nano-membrane [32] into a silicon micro-cantilever. However, these systems require the manual integration of nanotube and nanomembrane and, thereby, they are not practical to be integrated into the batchfabricated MEMS devices.…”
Section: Introductionmentioning
confidence: 99%
“…3 reflects the two different regimes that occur in the dynamics of the flexible connection, namely nonlinear stretching (hardening) above the breaking point x b , and buckling (softening) below the breaking point. Similar hardening/softening behavior of beams, shells and membranes have been studied extensively in the literature in nonlinear vibration problems [20][21][22][23][24].…”
Section: System Descriptionmentioning
confidence: 99%